Customer relationship management system for physical locations

ABSTRACT

A method and computer program product for managing information about transactions occurring in a physical establishment includes gathering information about multiple transactions at a physical establishment, and storing the information as metadata. A byte stream corresponding to the metadata is generated. Several elements of the metadata are associated with a particular session based on predefined criteria.

RELATED APPLICATIONS

This application is a continuation-in-part of U.S. patent application entitled Customer Relationship Management System for Physical Locations filed under Ser. No. 10/290,008 on Nov. 7, 2002 now U.S. Pat. No. 7,962,361.

FIELD OF THE INVENTION

The present invention relates to customer relationship management, and more particularly, this invention relates to customer relationship management in a physical environment.

BACKGROUND OF THE INVENTION

Modern society has created a plethora of ways to provide goods and services to customers. However, physical locations continue to be the predominant forums preferred by customers. Whatever the type of business, be it retail stores, banks, restaurants, patio cafes, or any other type business, customers prefer to interact directly with the providers of the goods and services. Physical locations include what is referred to herein as Brick and Mortar (BM) establishments, i.e., those places a customer can physically go to purchase goods, receive services, etc.

The most prominent examples of Physical Locations where commerce is transacted are Brick and Mortar Retail Establishments. However, the scope of the invention not only applies to retail establishments, but can also be applied to other physical locations such as banks, restaurants, hospitals, sports arenas, amusement parks etc.

Retail is the second-largest industry in the United States both in number of establishments and number of employees. It is also one of the largest worldwide. The retail industry employs more than 22 million Americans and generates more than $3 trillion in retail sales annually.

Over 93% of all sales take place in retail stores, meaning that an opportunity exists to interface directly with the customer. However, the limitations of heretofore known Customer Relationship Management (CRM) tools is that when a customer walks in the door of a retail establishment there is no means of obtaining the customer profile. That is, in the window of time between the customer walking in the door until the customer is at the Point-Of-Sale (POS), a retail store does not know the customer profile and therefore cannot service the customer properly. This is unlike the web, where a returning customer is immediately identified upon entering the homepage.

Proper servicing is critical to customer retention. It is estimated that a five percentage point increase in customer retention in a typical company will increase profits by more than 25%, and growth by more than 100%. Customer loyalty also accelerates growth. The typical Fortune 500 company, for example, has real annual growth of 2½%. If it retains 5% more of its customers each year, real growth will triple to 7½%.

From a perspective of customer service at the Brick and Mortar level, the “As-Is” situation is that there is no mechanism to effectively service the customer based on his profile, preferences and transaction history, or at best these mechanisms are very ad-hoc and un-automated. The only service that currently exists in a BM establishment, is in the form of incentives given after a transaction in order to entice the customer to return. These incentives vary from loyalty cards (buy 9 get the 10th free), to gift certificates. However, these incentives have are very limited in their effectiveness, because they are offered at the end of the transaction—which is too late.

The following two data-points illustrate the severe limitations of the As-Is situation from a revenue and profitability perspective:

According to IBM Consulting, the top 5% of retail customers generally contribute 20% to 25% of sales revenues and 25% to 45% of profits. And according to Bain & Co., a 5% increase in customer retention can produce profit increases as high as 125% However, even though over 93% of retail sales happen in retail establishments, a retailer using any of the above-described systems cannot identify a top 5% customer when she walks in the door. Nor can a retailer service customers appropriately to increase retention. Nor can the retailer convert a new customer who has the potential to spend like a top 5% customer does, into a loyal customer.

What is needed is a system and method to address all three of the limitations discussed in the previous paragraph.

Further, in most situations, a retailer/service provider has few or no methods to solicit, capture and respond to customer feedback. It needs tools to effectively manage the business based on actual customer experiences. In addition, it lacks formalized pre-sales customer service. Customer service is disjointed, roles and responsibilities are not clearly defined, and standards for customer communications and corrective actions are lacking.

The present invention solves the aforementioned problems, and improves on prior art attempts to provide CRM, by providing a new design that assists the enterprise in the following, in the context of brick and mortar establishments:

-   -   Identifies a customer as soon as she walks in the door     -   Locates a customer within a Physical Store     -   Syncs up with the corporate CRM system to get a “holistic-view”         of customer. This includes preferences based on past         transactions, which occurred on all channels for interacting         with customers. The channels include physical store, ecommerce         web-sites, catalog sales, telesales     -   Alerts service provider with customer's preferred status     -   Provides service prvider with possible cross-sells/up-sells for         the customer     -   Provides service provider with memos of prior engagements with         the customer     -   Creates an engagement plan for a customer     -   Allows for data input after each interaction to improve the         engagement plan for future transactions     -   Disseminates the engagement plan to the service provider         servicing the customer     -   Uses a Cookie-based session concept to manage a customer session         at a store in the same manner as a software cookie is used to         start and manage an eCommerce session on the Web, thus providing         valuable customer behavior data in order to create a holistic         view of the customer     -   Interfaces with POS system to determine if a new customer         qualifies for new incentives     -   Interfaces with POS to determine incentives and print incentives         on receipt     -   Captures the customer transaction in a physical location as part         of the session     -   Performs analytics on the session information in order to enable         corporate to get detailed insights into the customer         transactions     -   Allows corporate to send key engagement messages to the service         providers at the physical location

SUMMARY OF THE INVENTION

The present invention provides solutions for enhanced customer experience for businesses conducted in “brick and mortar” establishments. As mentioned above, the notion of “brick and mortar” establishments encompasses physical locations. The embodiments of the present invention disclosed herein allow personalized service to the customer from the moment of his/her arrival in the facility. It enables targeted marketing and sales promotions (up-sell/cross-sell) for individual customers, much prior to the POS touch-point (checkout lanes). Furthermore, for the first time, it extends the full powers of an e-CRM system to a traditional brick-and-mortar business. All of this consequently empowers businesses to provide enormously improved customer focus and presales, sales, and post-sales service thereby greatly increasing customer retention and loyalty.

According to one embodiment, a method for managing information about transactions occurring in a physical establishment includes gathering information about multiple transactions at a physical establishment, and storing the information as metadata. A byte stream corresponding to the metadata is generated. Several elements of the metadata are associated with a particular session based on predefined criteria.

In another embodiment, a method for managing information about transactions occurring in a physical establishment includes gathering information about a transaction at a physical establishment, the transaction relating to a person at the physical establishment. The information is matched to pre-specified event types and converted to a standardized form. The converted information is stored as metadata based on the matching. The metadata is then made available to a requesting program.

In a further embodiment, a method for measuring customer value includes identifying a customer utilizing a wireless system and collecting information about transactions relating to the customer using the wireless system, where the transactions occurring at a physical establishment. Information about additional transactions relating to the customer is also collected. These can be any type of transaction. A frequency score indicating a frequency of occurrence of a pre-specified type of the transactions is generated, as is a monetary score indicating an amount of money expended by the customer. Finally, the scores are output.

According to yet another embodiment, a method for measuring customer value includes collecting information about transactions relating to the customer using the wireless system, the transactions occurring at a physical establishment. Information about additional transactions relating to the customer is collected. A frequency score indicating a frequency of occurrence of a pre-specified type of the transactions is generated, as is a monetary score indicating an amount of money expended by the customer. At least one of the scores is based at least in part on a duration of a visit to the physical establishment by the customer.

In another embodiment, a method for managing messaging to a person includes selecting a message to present to a person based on at least one of the following: a frequency score indicating a frequency of occurrence of a pre-specified type of transaction, a monetary score indicating an amount of money expended by the person for a specified time frame, a change in the frequency score, a change in the monetary score, and an average duration of visits by the person.

According to still yet another embodiment, a method for reporting information about events occurring at a physical location includes gathering data about multiple events at a physical location, the events including transactions and interactions of a person at the physical location. The information about the events is stored as metadata. Metadata about at least one event that occur at the physical location is assembled. Information about at least some of the events that occur in the physical location are displayed.

In a further embodiment, a method for evaluating performance of a sales person based on events occurring at a physical location includes gathering data about multiple events at a physical location, the events including transactions and interactions of a sales person at the physical location. A rating of the sales person is generated based on the events.

BRIEF DESCRIPTION OF THE DRAWINGS

For a fuller understanding of the nature and advantages of the present invention, as well as the preferred mode of use, reference should be made to the following detailed description read in conjunction with the accompanying drawings.

FIG. 1 is a system diagram of a wireless CRM system according to one embodiment of the present invention.

FIG. 2 is a flow diagram of a process for outputting information about a customer.

FIG. 3 depicts an illustrative restaurant setting for deployment of a CRM system.

FIG. 4 depicts an illustrative restaurant engagement plan.

FIG. 5 depicts an illustrative retail setting for deployment of a CRM system.

FIGS. 6A-B depict illustrative retail engagement plans.

FIG. 7 illustrates a login page of an account setup process.

FIG. 8 depicts a new user setup screen of an account setup process.

FIG. 9 shows an illustrative screen for importing a realm in an account setup process.

FIG. 10 illustrates a manual new user setup screen of an account setup process.

FIG. 11 depicts a privileges screen that displays the privileges of the user.

FIG. 12 illustrates a screen that allows selection of a type of store data measure to output.

FIG. 13 shows a screen that allows a user to select a type of RFM measure to output.

FIG. 14 depicts a screen that allows the user to select one or more types of store session measures to output.

FIG. 15 shows a screen that allows the user to define the store locations for which store data is calculated.

FIG. 16 illustrates a screen that allows the user to select the duration and frequency of the store data to be output.

FIG. 17 illustrates a screen that allows selection of a type of analysis to perform on store data.

FIG. 18 shows a screen for selecting parameters for a correlation study.

FIG. 19 depicts a screen that allows a user to define the store locations for which store data is analyzed for the correlation study.

FIG. 20A illustrates a screen that allows a user to select the duration and frequency of the store data to be output.

FIG. 20B illustrates an output page displaying the results of the correlation study in a browser.

FIG. 21 depicts a screen that allows selection of a campaign for an impact study.

FIG. 22 illustrates a screen that allows selection of a type of measure for an impact study.

FIG. 23 shows a screen that is displayed to allow a user to select a type of RFM measure to use for the impact study.

FIG. 24 depicts a screen that allows the user to select one or more types of store session measures to output for the impact study.

FIG. 25 illustrates a screen that allows the user to define the store locations for which the impact study parameters are calculated.

FIG. 26 illustrates a screen that allows the user to select the duration and frequency of the store data to be output for the impact study.

FIG. 27 shows a screen that allows a user to select an objective of an engagement message.

FIG. 28 depicts a screen for creating a customer retention message.

FIG. 29 depicts a screen for creating a message for prevention of customer loss.

FIG. 30 illustrates a screen for creating a message for providing a customer incentive.

FIG. 31A illustrates a screen that allows selection of a type of performance to analyze.

FIG. 31B depicts a screen displayed if Store Performance has been selected on the screen of FIG. 31A.

FIG. 31C illustrates a screen that allows a user to select the duration and frequency of the evaluation data to be output.

FIG. 31D depicts a screen displayed if Sales Rep Performance has been selected on the screen of FIG. 31A.

FIG. 31E shows a screen that allows selection of one or more evaluation measures which can be used to perform the evaluation.

FIG. 31F illustrates a screen allows the user to select the duration and frequency of the sales rep performance data to be output.

FIG. 32A is a flow diagram of a scenario for sending a reward card to a customer by mail.

FIG. 32B is a flowchart of a scenario for awarding VIP customer status at the POS.

FIG. 33 is a flowchart of a scenario for starting a session with a returning customer.

FIG. 34 is a flowchart of a scenario for engaging a return customer.

FIG. 35 is a flowchart of a scenario for closing a session.

FIG. 36 is a system diagram of a wireless CRM system architecture according to one embodiment of the present invention.

FIG. 37 is a system diagram of another wireless CRM system architecture according to one embodiment of the present invention.

FIG. 38 is a class diagram showing exemplary classes pertaining to customer engagement.

FIG. 39 is a class diagram depicting illustrative classes related to bmSessions.

FIG. 40 is a class diagram illustrating exemplary classes related to an engagement plan.

FIG. 41 is a table listing characteristics of various types of RFID systems that can be used with embodiments of the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION

The following description is the best embodiment presently contemplated for carrying out the present invention. This description is made for the purpose of illustrating the general principles of the present invention and is not meant to limit the inventive concepts claimed herein.

CRM Hardware/Software are System

FIG. 1 depicts a wireless CRM system 100 according to one embodiment of the present invention. As shown, a radio frequency (RF) device or object 102 capable of being identified by the wireless system is carried by a person such as a customer, client, delivery person, or anyone interacting with the business. For simplicity, the following description will refer to a “customer,” with “customer” meaning anyone interacting with the business or system.

The wireless technology that can be used in conjunction with this and other embodiments includes Radio Frequency Identification (RFID), smart cards, or any other type of wireless technology. The preferred wireless technology does not require line-of-site to the reader, so that an object in a wallet or purse can still be read without removing it. Thus, the device carried by the customer can be any device capable of being identified by a wireless system, such as a smart card, an RFID tag, etc. Note that contact-based systems can also be used, as noted below.

Smart cards are one preferred device because they are able to make maximum use of information available at the point of sale (customer purchasing history, number of points accrued, etc.) and allow instant rewards. Smart cards hold portable files, securely holding personal information about customer profiles, purchasing behavior and histories. Smart cards are suitable for operations with multiple partners, plus offer the possibility of adding or deleting partners, including after card issuance. Smart cards also facilitate home-shopping loyalty programs on the Internet, and are the bridge between the world of e-commerce and real-world points of sale in “brick and mortar” establishments.

RFID is discussed below in the section entitled “Overview of RFID.” Other items include RFID-chipped objects such as key chains and mobile phone covers that are typically more exposed than a card in a wallet or purse and are thus more easily read. Preferably, the object is capable of being identified by the wireless system without requiring a line of sight to the object. This allows the system to identify the object even though it is stored in a pocket, wallet, purse, etc.

A wireless interface 104 is provided for communicating with the object. An identification module 106 identifies the RF Tag and correlates the device to the customer. A meta data model 108 is used in conjunction with a rules engine 110 as the basis for cataloguing customer behavior and also serves as the basis for communicating the details of a session to the corporate CRM software/system 112 via an adapter interface 114. Preferably, the system can integrate with any already-existing CRM system, allowing the company implementing the new system to retain its investment in the prior system.

A profiler 116 generates an engagement plan based on personal information of the customer. An output device 118 outputs the engagement plan and/or identification information about the customer for assisting a user to identify the customer. For example, the identification information may include a visual likeness of the customer.

An incentive module 120 in combination with a point of sale (POS) device 122 outputs incentives (coupons, rebates, etc.) with the customer's amount due for services, products, etc. The incentive module also communicates with the output device 118.

Additional wireless interfaces can be provided to allow tracking of physical movement of the customer via, for example, triangulation. During tracking, the output device can output a physical location of the customer. Further, product information can be selected based at least in part on the personal information of the customer. The product information is output near the customer, i.e., within the customer's range of sight and/or hearing. The output can be visual, auditory, physical (paper coupon), etc.

The system preferably provides the following functionality:

-   -   CRM analytics     -   Customer relationship optimization (CRO)     -   Marketing     -   Marketing resource management (MRM)     -   Ad management services

The CRM system enables customer identification based on customer profile at the store level when the customer walks in to a Brick and Mortar establishment. The following are a list of preferred features of the system:

-   -   Identifies a customer as soon as she walks in the door     -   Locates a customer within a Physical Store     -   Syncs up with the corporate CRM system to get a “holistic-view”         of customer. This includes preferences based on past         transactions, which occurred on all channels for interacting         with customers. The channels include physical store, ecommerce         web-sites, catalog sales, telesales     -   Alerts service provider with customer's preferred status and         preferences     -   Provides service provider with possible cross-sells/up-sells for         the customer     -   Provides service provider with memos of prior engagements with         the customer     -   Creates an engagement plan for a customer     -   Allows for data input after each interaction to improve the         engagement plan for future transactions     -   Disseminates the engagement plan to the service provider         servicing the customer     -   Uses a Cookie-based session concept to manage a customer session         at a store in the same manner as a software cookie is used to         start and manage an eCommerce session on the Web, thus providing         valuable customer behavior data in order to create a holistic         view of the customer     -   Interfaces with POS system to determine if a new customer         qualifies for new incentives     -   Interfaces with POS to determine incentives and print incentives         on receipt     -   Captures the customer transaction in a physical location as part         of the session     -   Performs analytics on the session information in order to enable         corporate to get detailed insights into the customer         transactions     -   Allows corporate to send key engagement messages to the service         providers at the physical location

The present invention preferably assists the enterprise to:

-   -   Identify their customers     -   Interact with customers who may be resistant to providing         information on themselves     -   Invest more in the systems used at the point of customer contact     -   Become smarter in using the information already at hand     -   Make doing business simpler, including products and offers     -   Understand the real economics of each customer     -   Develop a realistic set of business needs (i.e., vs. the wants         and desires)     -   Listen to customers more, and ensure that they feel reassured at         each step, and that their data is protected     -   Define processes for gathering feedback from its customers and         processes for servicing its customers     -   Provide collaboration from throughout the organization     -   Use a database of information about its customers and mining         that data to improve customer relationships and increase revenue     -   Improve the customer experience by acting on feedback received         from its customer surveys and offering customer loyalty programs     -   Use metrics to measure its success, enabling it to show         measurable results from its CRM efforts     -   Provide instant rewards at the point of sale     -   Maintain multi-step campaigns to increase the effectiveness of         campaigns by specifying follow-up interactions with each         customer, including utilizing alternative channels such as         direct mail or call center     -   Deliver consistent communications across all marketing         channels-in-store, call center, and online     -   Profitable Interaction Centers: Siebel Marketing, when combined         with Siebel Call Center, improves the effectiveness of both         outbound telemarketing campaigns and inbound call handling, and         helps transform customer interaction centers into profitable         revenue sources that execute coordinated multichannel marketing         programs. Agents are able to execute real time marketing         campaigns and deliver targeted offers that reflect knowledge of         all marketing campaigns across all channels, quickly resulting         in higher sales and greater customer satisfaction

In a variation of the system described with respect to FIG. 1, a reader that requires physical contact with the identifying object can be used. For example, a card reader can be positioned at the entry to a store. Upon entering, the customer would swipe the card through the reader, which in turn would read a magnetic stripe on the card and thereby identify the customer.

FIG. 2 illustrates a process 200 for outputting information about a customer using a wireless system such as the system shown in FIG. 1. In operation 202, the customer is identified utilizing a wireless system. Preferably, the customer is identified at an entrance to a defined area such as the interior of a structure, where the engagement plan is output within a predetermined amount of time from the identification of the customer to allow, for example, a sales associate or service provider to exploit the window of time from when the customer enters a store until the customer checks out. Additionally, the customer can be identified at a predetermined location, such as in a particular department.

In operation 204, an engagement plan is created based on the profile (of the customer) associated with the identification of the customer. The engagement plan has information useful for interacting with the customer. Such information can be aimed at a service provider or retailer and can include suggestions, strategies, explicit instructions, etc. The engagement plan can also include other types of useful information, including a preference of the customer such as favorite salesperson or waiter, favorite food item or type of product, preferred seat, etc. The engagement plan may also include a preferred engagement level, i.e., brief to extended. Information for cross-selling can also be included. Additionally, incentives such as coupons, rebates, loyalty rewards, etc. can accompany/be included in the engagement plan.

The engagement plan also entails marketing and promotions output directly to the user. More discussion regarding this feature is provided below.

The engagement plan is preferably created based at least in part on personal information of the customer. Personal information refers to any type of information associated with that customer alone, such as a profile, name, transaction history, preferences, account number, user identification number, etc. The engagement plan may also be tailored based at least partially on input relating to a prior interactions of the customer with one or more of a website, a physical location such as a store, a catalog transaction (catalog sale or request for information), and a telesales interaction. An interaction occurs, for example, when the customer in some manner views, discusses, searches for, and/or requests an item or service in one of the contexts set forth above.

Additionally, the driving software can be implemented with other applications, such as debit/credit card, e-purse, private payment, e-couponing and more, bringing additional benefits and convenience for customers.

To effectively engage those customers who look online or in magazines prior to purchasing a product or service, the engagement plan may also include a description of the item or service that the customer looked at or discussed online, in a store, on the phone with a catalog or teleservice representative, etc. For example, the user would be identified during a browsing session using a cookie and the items viewed during that session would be logged for later integration into an engagement plan.

Preferably, a status of the customer is determined on a tiered scale. This identifies the customer on a tier such as an occasional customer, a general customer, a preferred customer, a top 5% customer, etc., and the customer's position on the tier can be based on prior transaction/purchase history, past sales, etc. The engagement plan may then be created based at least in part on the status of the customer.

For example, the status of a customer can be specified on a tiered scale: Platinum, Gold, Silver, Bronze etc. This may be determined both on the revenues generated by virtue of purchases made by the customer, and also by costs incurred in servicing the customer. There could be various types of costs incurred in servicing a customer. Some examples are: post-sales customer service over the telephone, post-sales customer service over email, post-sales customer self-service by using the web-site, costs associated with products returned by the customer. The industry figures for post-sales customer-service are: Telephone—$12 per call; Email—$4 per email which is responded to; Web-based self-service—4 cents

The engagement plan is output in operation 208. In operation 210, identification information about the customer is output to assist a user in identifying the customer. Exemplary identification information includes a visual likeness of the customer. Other identification information may include a probable location of the customer. This information can be determined, for example, based on statistics of departments and/or sales items in which the customer has shown interest in the past. Additionally, past transaction data can be mined in order to determine the most likely location of the customer.

In operation 212, physical movement, i.e., geographical or positional movement, of the customer is tracked utilizing the wireless system. This data reflects which items the customer looked at most, which department she spent the most time in, etc. This in turn helps optimize product placement and promotion.

Tracking data can also be used to help a user find the customer, such as by outputting an indicator of a physical location of the customer. The personal information of the customer can be updated based on the physical movement of the customer.

For tailored marketing, product information and/or pricing can be selected based at least in part on the personal information of the customer and/or the physical location of the customer, and output near the customer, i.e., within the customer's range of sight and/or hearing. Note operation 214. The output can be visual, auditory, physical (paper coupon), etc. Similarly, special product or service pricing can be selected based at least in part on the personal information of the customer, and output near the customer. Illustrative output devices for such tailored marketing include networked screens, portable devices, speaker systems, kiosks, etc.

Kiosks can also identify a customer and provide tailored output to particular customers, allowing them to shop an expanded product assortment, use registries, and get in-depth product information for in-store research.

To tailor a sales pitch to an undecided customer, or offer assistance or a promotion for a product the customer has shown interest in, a correlation can be made between the customer and products transported by the customer using the wireless system. This can be accomplished using positional sensing of RFID tags on products being in about the same position as the customer, sensing movement of a product while the customer is nearby, etc.

While the invention provides significant value in identifying and servicing a customer, there are scenarios when the value is further enhanced. One such scenario is when every item is tagged with a RFID Tag. In this scenario the Brick and Mortar Session could capture events such as products viewed by a customer and products tried by the customer. The Products Viewed Event would be based on the proximity of the person to a product; The Product Tried/Evaluated would be based, for example, on the product being transported by a customer to a changing room in a Retail Store. The executive dashboard could then show valuable metrics such as which products are being tried but not being purchased. This could indicate that the price is too high.

Whether the correlation takes place can be determined based on the physical position of the customer and product, such as in a changing room. The correlation can also be made upon the user physically moving the product a predefined distance, such as more than three feet from its original position, etc.

The wireless system may also correlate the customer with products potentially viewed by the customer for future reference into the interests of the customer. For example, products near stopping points of the customer as he passes through a store may be considered of general interest to the customer. These products can be identified and logged, and listed on a later engagement plan as a potential sell.

As an option, an alert can be activated upon expiration of a predetermined amount of time to instruct a user to check a service level of the customer to ensure that the customer is being serviced properly.

In operation 216, the customer's personal profile is updated based on information received during the session. For example, feedback can be obtained directly from the customer and stored for use in creating a future engagement plan. Information can also be received directly from a user that has interacted with the customer, and stored for use in creating a future engagement plan.

Towards the end of the session, an incentive (coupon, rebate, etc.) can be output to the customer at the POS with an amount due by the customer for services, products, etc. See operation 218. The system may also be integrated with a self-checkout system.

FIG. 3 depicts an illustrative restaurant setting 300. At the entrance 302, an RF floor antenna senses the entrance of a preferred customer. This triggers a StartSession event. At 304, the manager is notified of the customer's preferred status and seating preference. This data is stored locally. The customer is seated per his or her preferred seating profile: window and corner (306).

The manager receives an engagement plan from the central CRM system. The plan includes:

-   -   current incentives and redemption     -   waiters who have served the customer previously     -   wine and main course preferences     -   special dietary requirements

The manager briefs the selected waiter with the engagement plan. The waiter in turn appraises the customer of incentives, preferably prior to taking the customer's order. After a predetermined amount of time (generated based on prior history) has elapsed since the start of the session, the manager is alerted to check if the preferred customer is being serviced properly.

Towards the end of the session, the CRM interfaces with the POS to determine if the customer qualifies for new incentives and, if so, prints them on the check. The waiter in turn notifies the customer of the incentives. As the customer leaves, the manager wishes the customer goodbye and obtains overall feedback on the food and service, which the manager enters into the CRM system. The manager may also award a Preferred Customer card if the CRM determines that the customer qualifies for Preferred Status based on POS data.

When an RF floor antenna senses the customer leaving, an EndSession event is triggered. The manager and serving waiter provide updates for the next engagement plan. The session information and updates are sent to the central CRM.

FIG. 4 depicts an illustrative restaurant engagement plan 400. As shown, a customer information section 402 is provided, including name, tiered status, a preferred level of service, and the speed at which the customer typically dines.

A memoranda section 404 contains a list of notes input by waiters/managers who have interfaced with the customer. A food preferences section 406 lists items the customer has previously ordered, and how he likes them cooked and any special dietary concerns. A beverage preferences section 408 lists the customer's preferred beverages.

FIG. 5 depicts an illustrative retail setting 500. One embodiment of the present invention for retail deployment provides the following features:

-   -   Enables customer identification at the store level when the         customer walks into the store     -   Synchronizes information with the corporate CRM system to get         “holistic-view” of the customer     -   Alerts store manager with customer's loyalty rating     -   Alerts store manager with possible cross-sells/up-sells for the         customer     -   Disseminates this information to the sales clerk servicing the         customer     -   Uses a cookie to manage a customer session at a store in a         similar manner as a software cookie is used to start and manage         an eCommerce session on the Web

The system for retail deployment can be based on RFID Technology and a Real-Time Event-Driven Platform. RFID tags are put on a credit card carried by the customer.

RFID Readers are installed at the Store Entrance. This may require no additional investment if readers are already installed for theft prevention. These Readers enable the system to identify and initiate a start and end of a customer in-store session.

As an option, RFID Tags can also be installed on garments at the time of sale. When the POS-Clerk removes the anti-theft RF Transponder, a small RF Tag is installed on the garment (Note: RF Tags can be manufactured such that they are not affected by laundry; Sokymat has already demonstrated this for RF laundry applications). The RF tag is associated with a cookie that stores an association of the RF tag on a garment with the customer. When the customer re-enters the store wearing the garment, the cookie is used to indicate to personnel that the customer is wearing a garment purchased from that company.

With reference to FIG. 5, at the entrance 502, RF floor antenna senses entry of a preferred customer. Software at the store level reads the tag and generates a StartSession event. Session information can be stored at the store level and/or at the corporate level. Preferably, most of the session information is generated and stored at the local/store level to ensure fast operation. Where information is generated and stored may be altered depending on specific environments, performance considerations and implementation details.

The StartSession event starts a new customer in-store session. Software at the corporate level reads the event and interfaces with the back-end CRM system to obtain a customer profile.

At 504, the manager is notified of the presence of the preferred customer and an engagement plan is output from a central CRM system. The engagement plan can include:

-   -   customer's loyalty rating     -   sales representatives who have serviced the customer before     -   memos from prior sales representatives     -   list of cross-sells     -   most likely departments to locate customer     -   desired engagement level: brief to extended     -   multi-channel aspects, such as prior interaction with a website,         telesales, catalog transaction, etc.

The manager pages sales representatives who have been trained to handle preferred customers and briefs them with the engagement plan. The sales representative internalizes the engagement plan and prints the cross-sells list.

The sales representative tracks the customer to 506 based on departments in the engagement plan and engages with the customer per the plan. The sales representative may also hand over the cross-sells print out and highlight any cross-sells which may be on sale. The sales representative also gets feedback on the usefulness of cross-sells for this particular customer, which is then entered into the CRM system.

RFID Readers are also preferably placed at strategic locations in the store, such as the entrance to the changing room 508. When the customer walks past a strategic location, such as the changing room, instructions based on the customer profile are displayed on the sales-clerk's monitor at that location. An audio message can also be sent to the sales clerk. This is where the sales clerk can co-relate a customer's information with the customer and interface with the customer based on the customer's profile. These readers enable the intermediate transactions of a customer in-store session. RF antennas at the changing rooms provide events to the CRM system which enable tracking of frequency and duration of trips to the changing room.

RFID Readers are also preferably installed where the customers queue up—they are installed at the head of the queue, just before the POS. This Reader performs the last transaction of a customer in-store session. Here the POS-clerk can give a customer a cross-sell print, if the customer has not yet received it before.

When the customer proceeds to the POS at 510, the CRM interfaces with the POS to determine if the customer qualifies for new incentives, and prints it on the customer's bill. The POS reader instructs the POS clerk to give cross-sell print-out to customer. This instruction is given based on a set of rules encoded in the software. The cross-sell print-out not only contains the SKU's of the cross-sells, but could also have the size information. The POS clerk also notifies the customer of any new incentives. The customer may continue the session by asking a sales clerk to assist the customer in getting one or more of the cross-sells, promotional items, etc.

At the exit (512), the RF floor antenna senses the customer leaving, which in turn triggers an EndSession event. At 514, a sales clerk provides updates for the engagement plan. The session information and updates can be sent to a central CRM. Where final session information is stored may be altered depending on specific environments, performance considerations and implementation details.

Illustrative session information can include data for several analytics. Some examples are:

-   -   Average time a customer spends at a store     -   Average time a customer spends at a store based on different         customer loyalties     -   Time of the day when the largest number of loyal customers visit         a store     -   Which stores see the largest number of loyal customers

If the customer does not have a card with an RFID tag or does not have preferred status, the CRM receives the POS data and determines if the customer qualifies for the tag and/or preferred status.

In another embodiment, a tag is attached to an item. For example, when a customer purchases a merchandise item, the POS-clerk installs an RF Tag, on the garment. This cookie has a unique ID, which can be associated with a cookie. When the customer wearing a tagged garment walks in, the system works in a similar way as it did with a customer with a tagged card.

FIG. 6A depicts an illustrative engagement plan 600 for a service provider. As shown, a customer information section 602 is provided, including name, tiered status, a preferred level of service, and the speed at which the customer typically shops. A memoranda section 604 contains a list of notes input by users who have interfaced with the customer.

FIG. 6B depicts an illustrative engagement plan 610 for a customer. A product preferences section 612 lists suggested products, including product details such as size, color, department, and whether the item is a past purchase or a suggested cross-sell. A gifts section 614 lists recommended gifts.

Metadata Model

According to one embodiment, a MetaData model is used to provide a comprehensive and standardized meta-data dictionary which captures all transactions, may they be commerce transactions or customer interactions, which occur in a brick and mortar establishment. As of today, no such comprehensive data dictionary exists.

As mentioned above in the discussion of FIG. 1, the MetaData model 108 can be implemented as a component of the CRM platform 100. All features can be implemented using web technologies and preferably run on any Java/.Net Application Server/Servlet Engine Platform.

Some of the benefits of the MetaData model are:

-   -   It allows the corporate departments of companies to get a         detailed view of their store operations, especially from the         perspective of commerce transactions, and sales-rep customer         interactions.     -   It allows corporate departments to send consistent engagement         messages based on customer profile and in-store customer         transactions.     -   It allows for easy integration of various components of the CRM         system described herein with each other, and with software from         outside vendors. Typical examples of such third party software         may include corporate CRM systems, corporate transaction systems         which capture POS transactions, and corporate product         catalogues.     -   The data dictionary can be based on an open architecture thereby         enabling all industries to join and submit specifications and         suggestions.     -   The open architecture and common elements enable         interoperability between industries and between companies within         an industry.

According to one embodiment, a method for managing information about transactions occurring in a physical establishment includes gathering information about multiple transactions at a physical establishment, and storing the information as metadata. A byte stream corresponding to the metadata is generated. Several elements of the metadata are associated with a particular session based on predefined criteria.

In another embodiment, a method for managing information about transactions occurring in a physical establishment includes gathering information about a transaction at a physical establishment, the transaction relating to a person at the physical establishment. The information is matched to pre-specified event types and converted to a standardized form. The converted information is stored as metadata based on the matching. The metadata is then made available to a requesting program.

Some of the key business benefits attained by implementing the MetaData model are increased customer loyalty, increased transaction size, fewer lost customers, and increased sales. Each of these benefits is discussed below.

Increased Customer Loyalty

Retailers understand the concept of repeat business and want to do what they can to get it. Retailers have to get to know their customers and listen to their concerns in order to establish the trust necessary for a strong, loyal, long-lived relationship. The problem is that the knowledge gained during one customer visit is not passed on to the next visit. MetaData captures this knowledge and makes it available in a succinct manner when a customer walks in again.

Increased Transaction Size

As part of the Engagement Plan, MetaData notifies the sales staff of the expected duration of a customer visit. It also provides information about which sales clerks the customer has interacted in the past, and which interactions have been the most effective. Armed with this information, a sales clerk can engage a customer at an appropriate time, and ensure that the customer finds everything she is looking for thereby increasing the dollar value of each transaction.

Prevents Loss of Valuable Customers

The first sign of a Retailer losing a valuable customer occurs when the Recency (R) value of her RFM scorecard starts falling. MetaData immediately notifies the manager when such an event occurs. It also makes the most recent transactions available to the store manager. The CRM system, which executes the rules specified by corporate, would advise the store manager of possible ways to engage and incent the customer to prevent loss of patronage.

Increased Comp Sales (Comparable Store Sales—Year Over Year)

Arguably the most important yardstick, which measures the success of a retail store, is its Comparable Sales, year over year. The MetaData model a retailer to significantly increase this measure. All of the above benefits: increased loyalty, reduced loss of valuable customers, increased transaction size result in significant increases in Comparable Store Sales.

MetaData XML Schemas

XML schemas may be used to describe the MetaData model. Following are four illustrative XML schemas. These are listed below, followed by an illustrative XML implementation example.

-   -   1. Brick and Mortar Event: This XML schema captures a Brick and         Mortar Session Event. Several such events are part of a session.     -   2. Brick and Mortar Session: All the events in a customers visit         to a Brick and Mortar Store reference one session. Essentially,         one session captures all the transaction for a customer visit to         a physical retail establishment.     -   3. Customer-Sales Rep Interaction: Captures the details of a         single customer interaction with a sales rep. It also shows how         the knowledge gained from a past interaction has been utilized.     -   4. POS Transaction: Captures a purchase transaction at a POS or         a return transaction.

While these schemas relate primarily to the retail industry, schemas for other industries such as hospitality, banking etc. can be added. In the following examples, assume the schema target namespace is “www.novitaz.com/retail.”

XML Schema for a Brick and Mortar Event <?xml version=“1.0” encoding=“UTF-8”?> <xs:schema targetNamespace=“www.novitaz.com/retail” xmlns:xs=“http://www.w3 .org/2001/XMLSchema” xmlns=“www.novitaz.com/retail” elementFormDefault=“qualified” attributeFormDefault=“unqualified”> <xs:element name=“BM_EVENT”> <xs:annotation> <xs:documentation>Captures a Brick and Mortar Session Event. Serveral such events are part of a session</xs:documentation> </xs:annotation> <xs:complexType> <xs:sequence> <xs:element name=“BM_EVENTID”> <xs:complexType> <xs:simpleContent> <xs:extension base=“xs:integer”/> </xs:simpleContent> </xs:complexType> </xs:element> <xs:element name=“BM_SESSIONID”> <xs:complexType> <xs:simpleContent> <xs:extension base=“xs:integer”/> </xs:simpleContent> </xs:complexType> </xs:element> <xs:element name=“BM_EVENT_TYPE”> <xs:simpleType> <xs:restriction base=“xs:string”> <xs:enumeration value=“Start Session”/> <xs:enumeration value=“End Session”/> <xs:enumeration value=“Enter Department”/> <xs:enumeration value=“Exit Department”/> <xs:enumeration value=“Start Product Trial”/> <xs:enumeration value=“End Product Trial”/> <xs:enumeration value=“POS”/> <xs:enumeration value=“Customer Engagement”/> </xs:restriction> </xs:simpleType> </xs:element> <xs:element name=“TIME”> <xs:complexType> <xs:simpleContent> <xs:extension base=“xs:dateTime”/> </xs:simpleContent> </xs:complexType> </xs:element> <xs:element name=“BM_EVENT_DETAIL”> <xs:complexType> <xs:sequence> <xs:element name=“DEPARTMENTID”/> <xs:element name=“SALESCLERKID”/> </xs:sequence> </xs:complexType> </xs:element> </xs:sequence> </xs:complexType> </xs:element> </xs:schema> XML Schema for a Brick and Mortar Session <?xml version=“1.0” encoding=“UTF-8”?> <xs:schema targetNamespace=“www.novitaz.com/retail” xmlns:xs=“http://www.w3.org/2001/XMLSchema” xmlns=“www.novitaz.com/retail” elementFormDefault=“qualified” attributeFormDefault=“unqualified”> <xs:element name=“BM_SESSION”> <xs:annotation> <xs:documentation>All the events in a customers visit to Brick and Mortar Store reference one session id</xs:documentation> </xs:annotation> <xs:complexType> <xs:sequence> <xs:element name=“BM_SESSIONID”> <xs:complexType> <xs:simpleContent> <xs:extension base=“xs:integer”/> </xs:simpleContent> </xs:complexType> </xs:element> <xs:element name=“STOREID”> <xs:simpleType> <xs:restriction base=“xs:string”> <xs:enumeration value=“Start Session”/> <xs:enumeration value=“End Session”/> <xs:enumeration value=“Enter Department”/> <xs:enumeration value=“Exit Department”/> <xs:enumeration value=“Start Product Trial”/> <xs:enumeration value=“End Product Trial”/> <xs:enumeration value=“POS”/> <xs:enumeration value=“Customer Engagement”/> </xs:restriction> </xs:simpleType> </xs:element> <xs:element name=“DURATION” type=“xs:double”/> <xs:element name=“CUSTOMERID”/> </xs:sequence> </xs:complexType> </xs:element> </xs:schema> XML Schema for a Customer-Sales Rep Interaction <?xml version=“1.0” encoding=“UTF-8”?> <xs:schema targetNamespace=“www.novitaz.com/retail” xmlns:xs=“http://www.w3.org/2001/XMLSchema” xmlns=“www.novitaz.com/retail” elementFormDefault=“qualified” attributeFormDefault=“unqualified”> <xs:element name=“CUSTOMER_INTERACTION_MEMO”> <xs:annotation> <xs:documentation>Captures the details of a single customer interaction with a sales rep</xs:documentation> </xs:annotation> <xs:complexType> <xs:sequence> <xs:element name=“MEMOID”> <xs:complexType> <xs:simpleContent> <xs:extension base=“xs:integer”/> </xs:simpleContent> </xs:complexType> </xs:element> <xs:element name=“STOREID” type=“xs:int”/> <xs:element name=“CREATEDON” type=“xs:dateTime”/> <xs:element name=“CUSTOMERID” type=“xs:int”/> <xs:element name=“SALESREPID” type=“xs:int”/> <xs:element name=“UTILIZATION”> <xs:complexType> <xs:sequence> <xs:element name=“SALESREPID”/> <xs:element name=“UTILIZEDON”/> <xs:element name=“RATING”> <xs:simpleType> <xs:restriction base=“xs:string”> <xs:enumeration value=“Very Useful - Resulted in Sale”/> <xs:enumeration value=“Useful - Resulted in improved service”/> <xs:enumeration value=“Not Useful”/> </xs:restriction> </xs:simpleType> </xs:element> </xs:sequence> </xs:complexType> </xs:element> </xs:sequence> </xs:complexType> </xs:element> </xs:schema> Corporate Dashboard

The CRM system according to one embodiment includes a View module. The View module enables the corporate section of a company, which deals with the operations of its physical establishments (retail stores, restaurants etc.), to gain detailed knowledge of customer transactions, and interactions between sales reps and customer, which occur at the physical establishments. Further, it allows corporate to disseminate engagement plans and keys messages for different customer profiles. Because of this, all sales reps interacting with a particular customer communicate a consistent and coherent message.

One of the most important measures to gauge and increase customer value is a Recency-Frequency-Monetary (RFM) scorecard. All transactions of a customer are considered in creating an RFM scorecard. Recency (R) is a measure of how recent a customer's last purchase was. Frequency (F) is a measure of how frequently a customer makes purchases over a given period of time. Monetary (M) is a measure of the average dollar amount of transactions.

RFM measures provide vital information about a customer for successful engagement. For example, a customer who makes large purchases but visits the store infrequently may be as valuable as a customer who makes small purchases but visits the store very frequently. The first customer may need a significant amount of interaction time whereas the latter may need specific help on a previously researched item—any more time spent might be slowing down the shopper.

The View module, presents RFM-related measures as part of the corporate dashboard. In addition, it provides a whole set of measures which pertain to customer interactions within a physical establishment. These are enumerated below under the heading: “Store-Session Related Measures”.

A method for measuring customer value using RFM includes identifying a customer utilizing a wireless system and collecting information about transactions relating to the customer using the wireless system, where the transactions occurring at a physical establishment. Information about additional transactions relating to the customer is also collected. These can be any type of transaction. A frequency score indicating a frequency of occurrence of a pre-specified type of the transactions is generated, as is a monetary score indicating an amount of money expended by the customer. Finally, the scores are output.

According to another embodiment, a method for measuring customer value using RFM scores includes collecting information about transactions relating to the customer using the wireless system, the transactions occurring at a physical establishment. Information about additional transactions relating to the customer is collected. A frequency score indicating a frequency of occurrence of a pre-specified type of the transactions is generated, as is a monetary score indicating an amount of money expended by the customer. At least one of the scores is based at least in part on a duration of a visit to the physical establishment by the customer.

RFM (Recency-Frequency-Monetary) Related Measures

-   -   Number of preferred customers visiting store     -   Average elapsed time since last store visit     -   Average spending of preferred customer/per visit         Store-Session Related Measures     -   Duration of visits by preferred customer     -   Number of product trials per visit (In a retail store this may         be the number of visits to the changing room)     -   Number of interactions with preferred sales reps per visit     -   Number of customer interaction memos created per visit     -   Number of customer interaction memos utilized per visit         Correlation and Impact Studies

The RFM measures are directly related to Comp Sales. For example, if the number of customers visiting a store per day increases in a given period, it is very likely that it will result in increases in comp sales. However, what is not clearly known is whether an increase in the number of product trials per customer visit leads to an increase in transaction size or not. That is, the correlation between an RFM measure and a store-session is not obvious. The View module allows for such correlation studies to be performed.

Some examples of correlation studies are:

-   -   Correlation between customer spending and duration of visit     -   Correlation between customer spending and number of product         trials

In addition, the View module also allows a corporate marketing executive to see the impact of a particular marketing or incentive campaign. It does this by showing a comparison between a particular measure during the period of a campaign and the same period the previous year.

Customer Message Management (CMM)

The View module also allows the corporate users to specify key engagement messages for its customers. Because these customer messages are specified by a central corporate body, the View module ensures consistent and coherent messages to all customers irrespective of which sales clerk interacts with a customer. The engagement messages are preferably based on several criteria. Some illustrative criteria follow:

-   -   The Recency-Frequency-Monetary Scorecard of a customer: A         customer who makes large purchases but visits the store         infrequently may be as valuable as a customer who makes small         purchases but visits the store very frequently. The first         customer may need significant amount of interaction time whereas         the latter may need specific help on a previously research         item—any more time spent might be slowing down the shopper.     -   Changes in the RFM score of a customer: For example, the first         sign of a retailer losing a valuable customer occurs when the         Recency (R) value of her RFM scorecard starts falling. In such a         scenario, the key engagement message could be to provide an         incentive or reward to the customer to prevent loss of patronage     -   Average duration of visit: For example, if a particular customer         is a speed shopper whose average shopping speed is 20 minutes,         the key engagement message would be to interact with the         customer 10 minutes after she enters and ask whether the         customer needs help finding any specific items. The guidance to         the sales rep would also be to keep the interaction very brief.

According to one embodiment, a method for reporting information about events occurring at a physical location includes gathering data about multiple events at a physical location, the events including transactions and interactions of a person at the physical location. The information about the events is stored as metadata. Metadata about at least one event that occur at the physical location is assembled. Information about at least some of the events that occur in the physical location are displayed.

User Interface

This section describes some main tasks, which are available to a user of the CRM system according to one embodiment. Further, it provides an illustrative screenshot for each task, enumerating the steps involved in each task, thereby providing a cognitive walkthrough.

The screenshots in this example are shown as Java Applets. However, the CRM system can be written using any programing language, and can be a web-based product with JSP pages for the presentation layer. Client side code in the form of Applets may or may not be used.

There are 4 main system level tasks. These are:

-   -   1. Account Setup     -   2. View Store Data     -   3. Analyze Store Data     -   4. Customer Message Management (CMM)

FIGS. 7-11 illustrate an illustrative sequence of screenshots displayed during an account setup process. FIG. 7 illustrates a login page 700. As shown, a user can login to the CRM system by selecting the Member button 702. A login ID and password may be requested, upon receipt of which, the CRM system is accessible by the user. If the user is a new user, the user selects the New User button 704 to set up preferences/options for that user.

FIG. 8 depicts a new user setup screen 800 that is displayed when the New User button of FIG. 7 has been selected. The user can choose to import an existing realm by selecting the Import User Realm button 802. An existing realm can be one already set up by another user, can be a default realm, can be selected from a list, etc.

FIG. 9 shows an illustrative screen 900 displayed upon selection of the Import User Realm button. As shown, the user can select to import the realm via a relational database management system (RDBMS), Lightweight Directory Access Protocol (LDAP), file transfer, etc. by selecting the appropriate type from the list 902 of available types/protocols. The address/location of the realm is received in the Realm Connection Parameters field 904. The information is processed upon detecting selection of the Submit button 906.

If the Manual Set Up button 804 was selected on the screen of FIG. 8, a manual new user setup screen 1000 is displayed, as shown in FIG. 10. Information about the new user is entered in the fields. For example, the user's name and department are received in the Name field 1002 and Department field 1004, respectively. A privilege code that is later used to define the user's privileges in the CRM system is received in the Privileges Code field 1006. Other fields shown include Email 1008, User Name 1010, Password 1012, Re-type Password 1014. Additional fields (not shown) may also be displayed. The information is processed upon detecting selection of the Submit button 1016.

FIG. 11 depicts a privileges screen 1100 that displays the privileges of the user. As shown, the privileges can be separated into functional privileges and regional privileges.

FIGS. 12-16 illustrate exemplary screenshots that allow a user to show (retail) store data. FIG. 12 illustrates a screen 1200 that allows selection of a type of measure. In this example, the measures are RFM and Store Session. If RFM is selected, the screen 1300 shown in FIG. 13 is displayed to allow a user to select the type of RFM measure. If Store Session was selected on the screen of FIG. 12, the screen 1400 of FIG. 14 is displayed. This screen allows the user to select one or more types of store session measures to output.

The screen 1500 of FIG. 15 allows the user to define the store locations for which the results of the selections chosen in screen 1200, 1300 and/or 1400 are calculated. FIG. 16 illustrates a screen 1600 with fields 1602, 1604 that allows the user to select the duration and frequency of the store data to be output. A graph (not shown) of the store data is then generated for the selected time frame and frequency, and according to the parameters set by the user in the previous screens 1200, 1300, 1400 and/or 1500.

FIGS. 17-26 illustrate exemplary screenshots that analyze (retail) store data. FIG. 17 illustrates a screen 1700 that allows selection of a type of analysis. In this example, the types of analyses available are an impact study and a correlation study. The screen 1800 shown in FIG. 18 is displayed if a correlation study has been selected. This screen allows selection of one or more RFM and store-session measures. The screen 1900 of FIG. 19 allows the user to define the store locations for which the results of the selections chosen in screen 1700 and/or 1800 are calculated. FIG. 20A illustrates a screen 2000 with fields 2002, 2004 that allows the user to select the duration and frequency of the store data to be output. As shown in FIG. 20B, an output screen 2050 displaying a graph of the store data analysis is then generated for the selected time frame and frequency, and according to the parameters set by the user in the previous screens 1700, 1800 and/or 1900. As shown, the parameters of the results preferably can be modified on the screen as well.

If an impact study was selected in screen 1700, screen 2100 (FIG. 21) is displayed. This screen allows selection of a campaign, e.g., promotion, sale, etc. by selecting or entering a particular promotion in field 2102. Details 2104 about the selected campaign are also displayed. FIG. 22 illustrates a screen 2200 that allows selection of a type of measure. In this example, the measures are RFM and Store Session. If RFM is selected, the screen 2300 shown in FIG. 23 is displayed to allow a user to select the type of RFM measure. If Store Session was selected on the screen of FIG. 22, the screen 2400 of FIG. 24 is displayed. This screen allows the user to select one or more types of store session measures to output.

The screen 2500 of FIG. 25 allows the user to define the store locations for which the results of the selections chosen in screen 2100, 2200, 2300, and/or 2400 are calculated. FIG. 26 illustrates a screen 2600 with fields 2602, 2604 that allows the user to select the duration and frequency of the store data to be output. A graph (not shown) of the store data is then generated for the selected time frame and frequency, and according to the parameters set by the user in the previous screens 2100, 2200, 2300, 2400 and/or 2500.

FIGS. 27-30 illustrate various screens for customer message management according to one embodiment. In this example, screen 2700 of FIG. 27 allows a user to select an objective of an engagement message. Exemplary objectives are customer retention (e.g., to maintain the RFM score), prevention of customer loss (e.g., to respond to a drop in the RFM score), and to provide an incentive to the customer (e.g., to increase the RFM score).

FIG. 28 depicts the screen 2800 displayed upon selection of the Customer Retention objective on screen 2700. In this example, a total of nine engagement messages can be created corresponding to Low, Mid and High RFM Scores, as determined by the user-selectable settings of the RFM score fields 2802, 2804, 2806. The message is received in field 2808 and correlated to the settings of the score fields upon selection of the Submit button 2810.

FIG. 29 depicts the screen 2900 displayed upon selection of the Prevention of Customer Loss objective on screen 2700. In this example, a total of seven engagement messages can be created corresponding to drop in R, F, M, RF, FM, RM, RFM, as indicated by user selection of the desired RFM measures 2902. The message is received in field 2904 and correlated to the selected of the RFM measure(s) upon selection of the Submit button 2906.

FIG. 30 depicts the screen 3000 displayed upon selection of the Customer Incentive objective on screen 2700. In this example, a total of seven engagement messages can be created corresponding to the measure(s) to be increased (R, F, M, RF, FM, RM, RFM), as indicated by user selection of the desired RFM measures 3002. The message is received in field 3004 and correlated to the selected of the RFM measure(s) upon selection of the Submit button 3006.

FIGS. 31A-F illustrate exemplary screenshots that analyze store and/or sales representative performance. FIG. 31A illustrates a screen 3100 that allows selection of a type of performance to analyze. In this example, the types of performances available are store performance and sales rep performance. The screen 3110 shown in FIG. 31B is displayed if Store Performance has been selected. This screen allows selection of one or more evaluation measures. FIG. 31C illustrates a screen 3120 with fields 3122, 3124, 3126 that allows the user to select the duration and frequency of the store performance data to be output. The performance data is preferably output in visual form upon selection of the Draw Graph button 3128.

If Sales Rep Performance was selected on screen 3100, the screen 3130 of FIG. 31D allows the user to specify a group of sales representatives down to a particular sales rep. The screen 3140 shown in FIG. 31E allows selection of one or more evaluation measures which can be used to perform the evaluation. FIG. 31F illustrates a screen 3150 with fields 3152, 3154, 3156 that allows the user to select the duration and frequency of the sales rep performance data to be output. The performance data is preferably output in visual form upon selection of the Draw Graph button 3158.

Use Cases

Following are several exemplary “Use Cases” which provide generic descriptions of the overall functionality of the CRM system of the present invention. The Use Cases are used to describe the interactions between the classes of the software system and the actors. A scenario is one particular set of interactions between use-cases and actors. Actors are the system components or humans that perform certain tasks.

In the following paragraphs, the relationship of actors and Use Cases for restaurant and retail solutions will be described. Each Use Case diagram includes the description and the actors. The Use Case title is the specific task actors will perform when the actors send a particular stimulus to the system. The following 5 scenarios have been modeled:

1. Send Reward Card to VIP Customers by mail

2. Award VIP Customer Status at POS

3. Identify a returning customer who has a bmRewards Card

4. Engage with the returning customer who has a bmRewards Card

5. Close a bmSession of a returning customer

Scenario 1: Send Reward Card to VIP Customers by Mail

Actors Actor: Campaign Manager Type of Actor: User Actor: VIP Database/Corp CRM System Type of Actor: External System Actor: Reward Card Printing System Type of Actor: External System Actor: Retailer Reward Card Mailing Type of Actor: External System Sys. Scenario Description

This scenario starts when a Marketing campaign manager initiates the “Run Rewards Campaign” use case. The intermediate steps of the scenario are detailed in the description below and in FIG. 32A, which is a flow diagram of the Use-Case 3200 for sending a reward card to a VIP customer by mail. The scenario ends with the printing and mailing of Reward Cards.

Use Case Titles and Description

Title 3202: Run bmRewards Campaign—This Use Case comprises the two main use cases in this scenario: the “Create Rewards Campaign” use case and the “Distribute Rewards Card” use case.

Title 3204: Create Rewards Campaign—This Use Case includes all the steps required for determining the distribution list and creating the campaign letters.

Title 3208: Get VIP List—This Use Case interfaces with the VIP Database and/or the Corporate CRM system.

Title 3210: Get New VIP Customers—This Use Case only returns VIP customers who have not received a bmRewards Card before.

Title 3212: Get bmRewards Initiation Letter—This Use Case receives the text of the letter, which the new VIP customers will receive.

Title 3214: Get Customer Name and Address—This Use Case returns the mailing address of the VIP Customers.

Title 3216: Collate bmRewards Letter—This Use Case collates the VIP customers with the text of the bmRewards Initiation letter and creates one letter per customer.

Title 3218: Print bmRewards Card—This Use Case receives the Customer Names and interfaces with the bmReward Print System.

Title 3220: Correlate bmRewards Card—This Use Case correlates the RFID tag information on the card with the Customer Information.

Title 3222: Mail bmRewards Card—This Use Case sends a message to the Retailer Rewards Mailing System stating that the bmRewards Card and the letters are ready for mailing.

Scenario 2: Award VIP Customer Status at POS

Actors Actor: POS Clerk Type of Actor: User Actor: New Customer Type of Actor: User Actor: POS System Type of Actor: External System Actor: VIP Database/Corporate CRM Type of Actor: External System Scenario Description

FIG. 32B is a flowchart of a scenario 3250 for awarding VIP customer status at the POS. This scenario starts when the POS system sends the purchase information of a user to the “Award bmRewards Card” module. The intermediate steps of the scenario are detailed in the description below and in the scenario diagram. The scenario ends with the POS clerk awarding a VIP customer status to the new customer. The POS clerk provides a hand-out explaining how the bmRewards card works and that a bmRewards Card will be sent by mail

Use Case Titles and Descriptions

Title 3252: Award VIP Customer Status—This Use Case gets the purchase information of a customer from the POS in real-time. It calls the “Check VIP-Status Qualification” use case.

Title 3254: Check VIP-Status Qualification—This Use Case checks whether the customer qualifies for a VIP or preferred Status

Title 3256: Check if New Customer—This Use Case checks if the customer is not already a VIP customer

Title 3258: Determine Reward—If the new customer qualifies for a VIP status, then this Use Case determines the reward to be given in order to incentivize the customer to return. Please note, the reward could be a service-based reward, for example it could be something like a free make-up (Stores like Sephora provide such incentives).

Title 3260: Notify POS Clerk of Customer Qualification for VIP status—This Use Case sends a message to the monitor of the POS clerk notifying her that the new customer qualifies for a VIP status.

Title 3262: Notify POS Clerk of Reward—This Use Case sends a message to the monitor of the POS clerk notifying her of the reward the customer has received. The POS clerk can convey this verbally to the customer, stating that the given reward will be documented in the letter

Title 3264: Update Customer Name and Address—If the customer accepts the VIP status then the POS clerk gets the customer's name and mailing address and updates this information.

Title (not shown): Send Customer Update to Corporate CRM—This Use Case sends the customer information to the corporate CRM/corporate VIP customer database.

Scenario 3: Start bmSession with a Returning Customer

Actors Actor: VIP Customer Type of Actor: User Actor: Manager Type of Actor: User Actor: RF Readers Type of Actor: External System Actor: RF Adapter Type of Actor: External System Actor: VIP Database/Corporate CRM Type of Actor: External System Actor: Printer Type of Actor: External System Scenario Description

FIG. 33 is a flowchart of a scenario 3300 for starting a session with a returning customer. This scenario starts when a VIP Customer returns to the store. The RF Reader sends the sensed RF Tag information to the bmIdentification module. The scenario ends with the store manager being notified of the returning VIP customer and an engagement plan being printed for the manager

Use Case Titles and Descriptions

Title 3302: Start bmSession—This Use Case handles the start of a bmSession for the customer. It extends the Handle bmSession Use Case, which is the generic use case when any bmSession event occurs.

Title 3304: Send bmSession Event—This Use Case sends the bmSession event to the subscribers of the event.

Title 3306: Send Start bmSession Event—This Use extends the bmSession event by sending the Start Event.

Title 3308: Identify Customer—This Use Case uses the RFID signature to identify the customer.

Title 3310: Log bmSession Information—This Use Case logs the bmSession Information.

Title 3312: Notify Store Manager—This Use Case notifies the store manager of a bmSession event.

Title 3314: Start bmSession Notification—This Use Case extends the Notify Store Manager Use case by notifying the store manager of the start bmSession event.

Title 3316: Print bmEngagement Plan—This Use Case prints the engagement plan for the manager. Note, the engagement plan contains the preferred sales rep for the customer. The manager can then page the sales rep, which starts off the next use case scenario.

Scenario 4: Engage with a Returning VIP Customer

Actors Actor: VIP Customer Type of Actor: User Actor: Manager Type of Actor: User Actor: RF Readers Type of Actor: External System Actor: RF Adapter Type of Actor: External System Actor: VIP Database/Corporate CRM Type of Actor: External System Actor: Printer Type of Actor: External System Scenario Description

FIG. 34 is a flowchart of a scenario 3400 for engaging a return customer. This scenario starts when the Manager is notified of a VIP customer entering the store—the manager also has the engagement plan for the preferred customer. The manager obtains the preferred sales rep information from the engagement plan and pages the sales rep. The sales rep internalizes the engagement plan. The sales rep then engages with the customer. This scenario also captures intermediate session information, such as the customer entering and exiting a changing room, entering and leaving a department, and completing a purchase at the POS.

Use Case Titles and Descriptions

Title 3402: Send bmSession Event—This Use Case sends the bmSession event to the subscribers of the event.

Title 3404: Send Intermediate bmSession Event—This Use extends the bmSession event by sending intermediate session events such as entering and exiting changing rooms, entering and exiting departments etc.

Title 3406: Identify Customer—This Use Case uses the RFID signature to identify the customer.

Title 3408: Log bmSession Information—This Use Case logs the bmSession Information.

Scenario 5: Close a bmSession of a Returning Customer

Actors Actor: VIP Customer Type of Actor: User Actor: Manager Type of Actor: User Actor: RF Readers Type of Actor: External System Actor: RF Adapter Type of Actor: External System Actor: VIP Database/Corporate CRM Type of Actor: External System Actor: Printer Type of Actor: External System Scenario Description

FIG. 35 is a flowchart of a scenario 3500 for closing a session. This scenario starts when a VIP Customer leaves the store. The RF Reader sends the sensed RF Tag information to the bmIdentification module. The store manager is notified of the customer leaving. The scenario ends with the sales representative updating the data for the engagement plan of the customer.

Use Case Titles and Descriptions

Title 3502: Close bmSession—This Use Case handles the closure of a bmSession for the customer. It extends the Handle bmSession Use Case, which is the generic use case when any bmSession event occurs.

Title 3504: Send bmSession Event—This Use Case sends the bmSession event to the subscribers of the event.

Title 3506: Send End bmSession Event—This Use extends the bmSession event by sending the End Event.

Title 3508: Identify Customer—This Use Case uses the RFID signature to identify the customer.

Title 3510: Log bmSession Information—This Use Case logs the bmSession Information.

Title 3512: Notify Store Manager—This Use Case notifies the store manager of a bmSession event.

Title 3514: End bmSession Notification—This Use Case extends the Notify Store Manager Use case by notifying the store manager of the end bmSession event.

Title 3516: Update Engagement Memos—This Use Case is used by the Sales Representative to add engagement information pertaining to the last interaction.

Architecture

According to one embodiment, a TomCat WebServer with its Servlet Engine can be used. The overarching architectural follows the MVC paradigm where the Model, View and Controller are separated in an n-tier architecture.

If the deployment calls for a distributed architecture then the MVC paradigm implemented using TomCat can easily be moved to an MVC paradigm using a J2EE server. Essentially, the difference is that the distributed components can be implemented as EJB's—the Entity EJB's would then be the “model”

JSP Architectural Paradigms

The early JSP specifications advocated two philosophical approaches, popularly known as Model 1 and Model 2 architectures, for applying JSP technology. These approaches differ essentially in the location at which the bulk of the request processing was performed, and offer a useful paradigm for building applications using JSP technology.

Consider the Model 1 architecture 3600, shown in FIG. 36. In the Model 1 architecture, the incoming request from a web browser 3602 is sent directly to the JSP page 3604, which is responsible for processing it and replying back to the client. There is still separation of presentation from content, because all data access is performed using beans.

Although the Model 1 architecture is suitable for simple applications, it may not be desirable for complex implementations. Indiscriminate usage of this architecture usually leads to a significant amount of scriptlets or Java code embedded within the JSP page, especially if there is a significant amount of request processing to be performed. While this may not seem to be much of a problem for Java developers, it is certainly an issue if the JSP pages are created and maintained by designers—which is usually the norm on large projects. Another downside of this architecture is that each of the JSP pages must be individually responsible for managing application state and verifying authentication and security.

The Model 2 architecture 3700, shown in FIG. 37, is a server-side implementation of the popular Model/View/Controller design pattern. Here, the processing is divided between presentation and front components. Presentation components 3702 are JSP pages that generate the HTML/XML response that determines the user interface when rendered by the browser 3704. Front components 3706 (also known as controllers) do not handle any presentation issues, but rather, process all the HTTP requests. Here, they are responsible for creating any beans 3708 or objects used by the presentation components, as well as deciding, depending on the user's actions, which presentation component to forward the request to. Front components can be implemented as either a servlet or JSP page.

The advantage of this architecture is that there is no processing logic within the presentation component itself; it is simply responsible for retrieving any objects or beans that may have been previously created by the controller, and extracting the dynamic content within for insertion within its static templates. Consequently, this clean separation of presentation from content leads to a clear delineation of the roles and responsibilities of the developers and page designers on the programming team. Another benefit of this approach is that the front components present a single point of entry into the application, thus making the management of application state, security, and presentation uniform and easier to maintain.

FIG. 38 is a class diagram 3800 showing exemplary classes pertaining to customer engagement. FIG. 39 is a class diagram 3900 depicting illustrative classes related to bmSessions. FIG. 40 is a class diagram 4000 illustrating exemplary classes related to an engagement plan.

According to one embodiment, four databases are used: CRM, POS, Inventory, and IP. The CRM database contains tables relating to customer information and customer preferences based on prior transactions. The POS database contains tables relating to POS transactions. The Inventory database contains the products and product picture information. The IP database contains tables pertaining to core IP, such as BM Session Information, BM Memos etc.

Overview of RFID

Benefits of RFID

The significant advantage of all types of RFID systems is the noncontact, non-line-of-sight nature of the technology. Tags can be read through a variety of substances such as snow, fog, ice, paint, crusted grime, and other visually and environmentally challenging conditions, where barcodes or other optically read technologies would be useless. RFID tags can also be read in challenging circumstances at remarkable speeds, in most cases responding in less than 100 milliseconds. The read/write capability of an active RFID system is also a significant advantage in interactive applications such as work-in-process or maintenance tracking. Though it is a costlier technology (compared with barcode), RFID has become indispensable for a wide range of automated data collection and identification applications that would not be possible otherwise.

RFID Technology Overview

A basic RFID system consist of three components:

-   -   An antenna or coil     -   A transceiver (with decoder)     -   A transponder (RF tag) electronically programmed with unique         information

The antenna emits radio signals to activate the tag and read and write data to it. Antennas are the conduits between the tag and the transceiver, which controls the system's data acquisition and communication. Antennas are available in a variety of shapes and sizes; they can be built into a door frame to receive tag data from persons or things passing through the door, or mounted on an interstate toll booth to monitor traffic passing by on a freeway. The electromagnetic field produced by an antenna can be constantly present when multiple tags are expected continually. If constant interrogation is not required, the field can be activated by a sensor device.

Often the antenna is packaged with the transceiver and decoder to become a reader (a.k.a. interrogator), which can be configured either as a handheld or a fixed-mount device. The reader emits radio waves in ranges of anywhere from one inch to 100 feet or more, depending upon its power output and the radio frequency used. When an RFID tag passes through the electromagnetic zone, it detects the reader's activation signal. The reader decodes the data encoded in the tag's integrated circuit (silicon chip) and the data is passed to the host computer for processing.

RFID Tags

RFID tags come in a wide variety of shapes and sizes. Animal tracking tags, inserted beneath the skin, can be as small as a pencil lead in diameter and one-half inch in length. Tags can be screw-shaped to identify trees or wooden items, or credit-card shaped for use in access applications. The anti-theft hard plastic tags attached to merchandise in stores are RFID tags. In addition, heavy-duty 5- by 4- by 2-inch rectangular transponders used to track intermodal containers or heavy machinery, trucks, and railroad cars for maintenance and tracking applications are RFID tags.

RFID tags are categorized as either active or passive. Active RFID tags are powered by an internal battery and are typically read/write, i.e., tag data can be rewritten and/or modified. An active tag's memory size varies according to application requirements; some systems operate with up to 1MB of memory. In a typical read/write RFID work-in-process system, a tag might give a machine a set of instructions, and the machine would then report its performance to the tag. This encoded data would then become part of the tagged part's history. The battery-supplied power of an active tag generally gives it a longer read range. The trade off is greater size, greater cost, and a limited operational life (which may yield a maximum of 10 years, depending upon operating temperatures and battery type).

Passive RFID tags operate without a separate external power source and obtain operating power generated from the reader. Passive tags are consequently much lighter than active tags, less expensive, and offer a virtually unlimited operational lifetime. The trade off is that they have shorter read ranges than active tags and require a higher-powered reader. Read-only tags are typically passive and are programmed with a unique set of data (usually 32 to 128 bits) that cannot be modified. Read-only tags most often operate as a license plate into a database, in the same way as linear barcodes reference a database containing modifiable product-specific information.

RFID systems are also distinguished by their frequency ranges. Low-frequency (30 KHz to 500 KHz) systems have short reading ranges and lower system costs. They are most commonly used in security access, asset tracking, and animal identification applications. High-frequency (850 MHz to 950 MHz and 2.4 GHz to 2.5 GHz) systems, offering long read ranges (greater than 90 feet) and high reading speeds, are used for such applications as railroad car tracking and automated toll collection. However, the higher performance of high-frequency RFID systems incurs higher system costs.

Developments in RFID technology continue to yield larger memory capacities, wider reading ranges, and faster processing. It is highly unlikely that the technology will ultimately replace barcode—even with the inevitable reduction in raw materials coupled with economies of scale, the integrated circuit in an RF tag will never be as cost-effective as a barcode label. However, RFID will continue to grow in its established niches where barcode or other optical technologies are not effective. If some standards commonality is achieved—whereby RFID equipment from different manufacturers can be used interchangeably—the market will very likely grow exponentially.

Attributes of RFID Technology

Frequency

Three frequency ranges are generally distinguished for RFID systems, low, intermediate (medium) and high. The following table summarizes these three frequency ranges, along with the typical system characteristics and examples of major areas of application.

TABLE 1 Frequency Bands and Applications Frequency Band Operating Principle Characteristics Typical Applications Low Magnetic Induction Short to medium read Access control 100-500 kHz range Animal identification Inexpensive Inventory control low reading speed Intermediate Magnetic Induction Short to medium read Access control 10-15 MHz range Smart cards potentially inexpensive medium reading speed High Electro-magnetic wave Long read range Railroad car monitoring 850-950 MHz propagation High reading speed Toll collection systems 2.4-5.8 GHz Line of sight required Expensive

A degree of uniformity is being sought for carrier frequency usage, through three regulatory areas, Europe and Africa (Region 1), North and South America (Region 2) and Far East and Australia (Region 3). Each country manages their frequency allocations within the guidelines set out by the three regions. Unfortunately, there has been little or no consistency over time with the allocation of frequency, and so there are very few frequencies that are available on a global basis for the technology. This will change with time, as countries are required to try to achieve some uniformity by the year 2010.

Three carrier frequencies receiving early attention as representative of the low, intermediate and high ranges are 125 kHz, 13.56 MHz and 2.45 GHz. However, there are eight frequency bands in use around the world, for RFID applications. The applications using these frequency bands are listed in Table 2.

Not all of the countries in the world have access to all of the frequency bands listed above, as some countries have assigned these bands to other users. Within each country and within each frequency range there are specific regulations that govern the use of the frequency. These regulations may apply to power levels and interference as well as frequency tolerances.

TABLE 2 Frequency Bands and Applications Frequency range Applications and comments Less than A wide range of products available to suit a range of 135 kHz applications, including animal tagging, access control and track and traceability. Transponder systems which operate in this band do not need to be licensed in many countries. 1.95 MHz, Electronic article surveillance (EAS) systems used in 3.25 MHz, retail stores 4.75 MHz, and 8.2 MHz Approx. EAS systems and ISM (Industrial, Scientific and 13 MHz, Medical) 13.56 MHz Approx. ISM applications 27 MHz ISM applications specifically in Region 1 430-460 MHz ISM applications specifically in Region 2. In the USA 902-916 MHz this band is well organized with many different types of applications with different levels of priorities. This includes Railcar and Toll road applications. The band has been divided into narrow band sources and wide band (spread spectrum type) sources. In Region 1 the same frequencies are used by the GSM telephone network. 918-926 MHz RFID in Australia for transmitters with EIRP less than 1 watt 2350-2450 MHz A recognized ISM band in most parts of the world. IEEE 802.11 recognizes this band as acceptable for RF communications and both spread spectrum and narrow band systems are in use. 5400-6800 MHz This band is allocated for future use. The FCC have been requested to provide a spectrum allocation of 75 MHz in the 5.85-5.925 GHz band for Intelligent Transportation Services use. In France the TIS system is based on the proposed European pre-standard (preENV) for vehicle to roadside communications communicating with the roadside via microwave beacons operating at 5.8 GHz. Pros and Cons of Three Different Frequencies <150 kHz (125 kHz & 134 kHz)

Advantages:

-   -   Uses normal CMOS processing—basic and ubiquitous     -   Relative freedom from regulatory limitations     -   Well suited for applications requiring reading small amounts of         data at slow speeds and minimal distances     -   Penetrates materials well (water, tissue, wood, aluminum)         Disadvantages:     -   Does not penetrate or transmit around metals (iron, steel)     -   Handles only small amounts of data     -   Slow read speeds     -   Large Antennas—compared to higher frequencies     -   Minimal Range     -   Tag construction:     -   is thicker (than 13.56 MHz)     -   is more expensive (than 13.56 MHz)     -   more complex (requires more turns of the induction coil) 13.56         MHz

Advantages

-   -   Uses normal CMOS processing—basic and ubiquitous     -   Well suited for applications requiring reading small amounts of         data and minimal distances     -   Penetrates water/tissue well     -   Simpler antenna design (fewer turns of the coil); lower costs to         build     -   Higher data rate (than 125 kHz—but slower than higher MHz         systems)     -   Thinner tag construction (than 125 kHz)

Disadvantages

-   -   Government regulated frequency (U.S. versus Europe)     -   Does not penetrate or transmit around metals (unless very thick)     -   Large Antennas (compared to higher frequencies)     -   Larger tag size than higher frequencies     -   Tag construction: requires more than one surface to complete a         circuit     -   Minimal Range>400 MHz <1 GHz

Advantages

-   -   Effective around metals     -   Best available frequency for distances of >1 m     -   Tag size smaller than 13.56 MHz     -   Smaller antennas     -   Range: licensed to 20-40′ with reasonable sized tag (stamp to         eraser size)     -   Good non-line-of-sight communication (except for conductive,         “lossy” materials)     -   High data rate; Large amounts of Data     -   Controlled read zone (through antenna directionality)     -   >400 MHz <1 GHz

Disadvantages

-   -   Does not penetrate water/tissue     -   Regulatory issues (not available in many countries)

Regulatory issues in Europe (similar band ˜869 MHz requires dual-freq chip)

-   -   DSI III recommends 862 to 870 MHz in the EU, may not be         available elsewhere         Range

The range that can be achieved in an RFID system is essentially determined by:

-   -   The power available at the reader/interrogator to communicate         with the tag(s)     -   The power available within the tag to respond     -   The environmental conditions and structures, the former being         more significant at higher frequencies including signal to noise         ratio     -   The frequency

Although the level of available power is the primary determinant of range the manner and efficiency in which that power is deployed also influences the range. The field or wave delivered from an antenna extends into the space surrounding it and its strength diminishes with respect to distance. The antenna design will determine the shape of the field or propagation wave delivered, so that range will also be influenced by the angle subtended between the tag and antenna.

The impact of frequency on Range is tabulated below:

TABLE 3 Frequency Band and Range Frequency Band Range Low Short to medium read range 100-500 kHz Inexpensive low reading speed Intermediate Short to medium read range potentially 10-15 MHz inexpensive medium reading speed High Long read range 850-950 MHz High reading speed 2.4-5.8 GHz Line of sight required Expensive Environmental Factors RFID Characteristics and Effects of Environmental Factors FIG. 41 is a table 4100 from http://www.omron.com/card/rfid/faq/004. htm listing characteristics of various types of RFID systems that can be used with embodiments of the present invention. Environmental Electrical Noise

If there is environmental electrical noise (RFI) in the location of the Antenna system, some reduction in the read performance may result. This RFI could be caused by:

-   -   a) Other transmitters in the location     -   b) Inverters on drives and motors     -   c) Electrical noise generated by moving equipment such as         conveyors     -   d) Noise associated with the power supply, especially Switched         Mode Power Supplies.

Shielding the antenna is often an effective way to reduce or overcome such issues. This has benefits because it not only stops the RFI but it also stops any interference generated by the Reader affecting other equipment. The shield also stops transponders (XP), which are not in the read zone from being read. A shield also allows higher power levels to be used and still keep within the regulatory limits.

Preferred RFID Systems

Floor mounted systems are preferred because they do not pose any aesthetic restrictions for a BM establishment. In addition, since the RFID card will be carried primarily in wallets and purses their distance from the floor should not exceed 1 meter in most cases—1.5 meter read range should be more than adequate, and can be achieved by placing two 0.75 meter read range antennas at opposite sides of a doorway.

Passive Tags may be used to eliminate the need for customers to replace batteries on an active tag.

A long range contactless 13.56 MHz RF coupler can be used. The preferred long range coupler is designed to provide long distance communication between the host and a range of contactless chips, including INSIDE's PicoTag and any other ISO 15693 compliant product. Preferred general specifications of the coupler are:

-   -   Operating frequency 13.56 MHz     -   Operating temp° −20° C. to +70° C.     -   Physical dimensions 150×160 mm     -   Operating distance up to 150 cm (Depending on the type of         transponder and antenna)     -   Interfaces     -   Host interfaces RS232/RS485     -   Baud rate Default 9600 bps     -   (up to 115.2K bps)     -   Supported ISO 15693 contactless standards

The Read/Write Antennas, such as the HS500-Series Read/Write Antennas, provide an interface between a Read/Write RFID Controller and the data in the HS-Series Read/Write Tags. The antennas can transfer data at about 3000 bytes per second. Most importantly these tags can read/write data through virtually any non-conductive material and are unaffected by paint, dust, dirt and solvents. The compact size and long range of the antenna makes it ideal for use in commercial settings, where space is at a premium.

While various embodiments have been described above, it should be understood that they have been presented by way of example only, and not limitation. Thus, the breadth and scope of a preferred embodiment should not be limited by any of the above-described exemplary embodiments, but should be defined only in accordance with the following claims and their equivalents. 

What is claimed is:
 1. A method of managing information about a customer's interactions with a business establishment, the method executed by a computer system, and comprising: storing by the computer system a metadata schema, comprising: an in-store session schema for a session of a customer being present within the business establishment, a website session schema for a website session of the customer at a website associated with the business establishment, and an event schema for an event of the customer during a session; storing by the computer system, using the metadata schema, a customer profile for the customer including a plurality of previous website sessions of the customer occurring at the website associated with the business establishment, and a plurality of previous in-store sessions of the customer being present within the business establishment, including at least one time metric indicating time spent by the customer in a specific location or department within the business establishment during at least one previous in-store session within the business establishment; wirelessly detecting within the business establishment a wireless device carried by the customer; retrieving the customer profile for the customer including metrics about the customer that are derived from the plurality of previous website sessions and the plurality of previous sessions within the business establishment, the metrics including the at least one time metric; instantiating an instance of a session for the customer, using the session schema; wirelessly tracking events of the customer within the business establishment by tracking the wireless device, wherein tracking the events includes determining a current time metric as an amount time the customer spends in a specific location or department within the business establishment during the current session; instantiating instances of the events of the customer, using the event schema; determining at least one action resulting from the tracked events during the current session, the plurality of previous website sessions, and the plurality of previous sessions within the business establishment, wherein the at least one action comprises automatically notifying an employee of the business establishment of the customer's specific location or department within the business establishment and the action is based upon the current time metric for the specific location or department and the time metric for the specific location or department for the previous in-store sessions; determining an event that terminates the session of the customer; storing the current session and the events of the customer in association with the customer profile of the customer using the meta data schema.
 2. The method of claim 1, further comprising: storing a metadata schema of a point of sale transaction of a customer at the business establishment.
 3. The method of claim 1, wherein the session schema comprises: a session start time; and a session end time.
 4. The method of claim 1, wherein the session schema comprises: a time a customer entered a department of the business establishment; and a time the customer exited a department of the business establishment.
 5. The method of claim 1, wherein the session schema comprises: a time a customer started a product trial in the business establishment; and a time the customer ended a product trial.
 6. The method of claim 1, wherein the event schema comprises: an event time; and an event type.
 7. The method of claim 6, wherein the event schema comprises: a department of the business establishment in which the event occurred.
 8. The method of claim 6, wherein the event schema comprises: an employee of the business establishment with whom the customer interacted during the event.
 9. The method of claim 1, further comprising: providing a metadata schema of an interaction of a customer and an employee of the business establishment.
 10. The method of claim 9, wherein the interaction schema comprises: a customer identifier of the customer; an employee identifier of the employee; and a utilization rating for the interaction.
 11. The method of claim 1, wherein wirelessly detecting within the business establishment a wireless device carried by a customer further comprises: detecting an entry of the customer into the business establishment.
 12. The method of claim 1, wherein determining an event that terminates the session further comprises: detecting an exit of the customer from the business establishment.
 13. The method of claim 1, further comprising determining an average duration of a customer session.
 14. The method of claim 1, further comprising determining an average amount spent for a customer session. 